US1236917A - Method of recovering resins from benzol-plant residues. - Google Patents

Method of recovering resins from benzol-plant residues. Download PDF

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Publication number
US1236917A
US1236917A US13986216A US13986216A US1236917A US 1236917 A US1236917 A US 1236917A US 13986216 A US13986216 A US 13986216A US 13986216 A US13986216 A US 13986216A US 1236917 A US1236917 A US 1236917A
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residues
benzol
solution
plant residues
recovering
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US13986216A
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Marc Darrin
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Beazer East Inc
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Koppers Co Inc
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    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08FMACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
    • C08F240/00Copolymers of hydrocarbons and mineral oils, e.g. petroleum resins

Definitions

  • My invention consists essentially in dissolving these residues in a suitable solvent or combination of solvents and then distilling the solution until the temperature of the vapors passing olf reaches a certain point which dependsupon the nature of the solvent and the. consistency of the desired resin product.
  • a solvent I prefer to use solvent naphtha, though other hydrocarbon oils or solvents may be used which are capable of dissolving the residues without afiecting the essence of the invention.
  • sidual resin thus obtained is then drawn hot from the still and solidified by cooling.
  • the resin produced by the method of treatment above outlined has a clear yellow or reddish color and is hard and tough and very resistant to the action of acid and alkalis. It is soluble in practically all ordinary organic solvents, except alcohol.
  • the melting point depends'upon the temperature of distillation and the duration of the blowing operation. Using low temperatures and short blowing periods, soft resins, of melting point of about degrees centigrade, may be obtained; while by using higher temperatures and prolonging the blowing, materials of melting point of as high as 115 degrees centigrade may be produced.
  • I claim: 1. The method of recovering benzol plant residues, consisting in dissolving the residues, distilling the solution, and blowing a gaseous fluid through the solution.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • General Chemical & Material Sciences (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Health & Medical Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Medicinal Chemistry (AREA)
  • Polymers & Plastics (AREA)
  • Organic Chemistry (AREA)
  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)

Description

Iranian STATES PATENT eme MARC DARRIN, OF WILKIN SBUBG, PENNSYLVANIA, ASSIGNOB TO H. KOPPERS COM- PANY, 0F PITTSBURGH, IPENNSYLVANI A, A CORPORATION OF PENNSYLVANIA.
METHOD OF RECOVERING RESINS FROM IBENZOL-PLANT RESIDUES.
No Drawing.
To all whom-it may concern:
Be it known that I, MARC DARRIN, a citizen of the United States, residing at Wil kinsburg, Allegheny county, Pennsylvania,
have invented a new and useful Method of ovens are passed through a tower where the benzol hydrocarbons are absorbed in aheavy petroleum oil. This petroleum oil is then taken off and distilled to obtain said hydrocarbons in the form of an oil, technically termed light oil, this oil containing a large percentage of benzol. The light 011 is then distilled to obtain the benzol content and other constituents, such as toluol. This distillation of the light oil produces residues of variable composition. These residues have heretofore been thrown away. There are also residues recovered from the tower or scrubber where the gases pass in contact with the petroleum 011, these also being discarded.
I have discovered a process for recovering commercially useful resins from these residues and have thus overcome the difficulty heretofore experienced in attempting to utilize them. I
My process produces resins of gooduniformity from a wide variety of these benzol plant residues, and by suitable variation of my treatment, resins of diiferent melting points may be obtainedup to resins having a melting point of 115' degrees centigrade.
My invention consists essentially in dissolving these residues in a suitable solvent or combination of solvents and then distilling the solution until the temperature of the vapors passing olf reaches a certain point which dependsupon the nature of the solvent and the. consistency of the desired resin product. As a solvent I prefer to use solvent naphtha, though other hydrocarbon oils or solvents may be used which are capable of dissolving the residues without afiecting the essence of the invention. After the solution is formed it is subjected to distillation until the temperature of the vapors passing off is'between 150 and 300 degrees Specification of Letters Patent.
Patented Aug. 14, 1917.
Application filed December 30, 1916. Serial No. 139,862.
centigrade, the lower the temperature of these vapors, the softer is the grade of resin produced. Different grades of resin may thus be produced by carrying the distillation to a higher or lower vapor temperature.
In this distillation the solvent, together with some of the oily matters contained in the residues ass OE. and are condensed, and part or all of the solvent can be re-used for distilling further residues.
As soon as the temperature of the vapor has reached the desired point for producing the desired grade of resin, steam, air or a gaseous fluid is blown throu h the liquid solution in the still, and s cient heat is preferably applied to maintain the solution at approximately the same temperature.
This step of blowing efi'ects additional removal of oily materials, together with naphthalene and similar substances, and is preferably continued until tests of the material remaining in the still show that it has reached the desired consistency. The re-.
sidual resin thus obtained is then drawn hot from the still and solidified by cooling.
The resin produced by the method of treatment above outlined has a clear yellow or reddish color and is hard and tough and very resistant to the action of acid and alkalis. It is soluble in practically all ordinary organic solvents, except alcohol. The melting point depends'upon the temperature of distillation and the duration of the blowing operation. Using low temperatures and short blowing periods, soft resins, of melting point of about degrees centigrade, may be obtained; while by using higher temperatures and prolonging the blowing, materials of melting point of as high as 115 degrees centigrade may be produced.
In treating certain grades of benzol plant residues which are highly contaminated with insoluble foreign substances, it is desirable to filter the solution before the distilling step is carried out in order to filter out this insoluble solid matter. This step is important where the contamination is present, as foreign matter such as free carbon will injure the resulting resin by causing decomposition during distillation, due apparently to catalytic action of the carbon. This filtering is sometimes necessa in using the scrubber residues, althou h it is not usuallynecessary in using the residues from the light oil distillation.
ing from my invention.
I claim: 1. The method of recovering benzol plant residues, consisting in dissolving the residues, distilling the solution, and blowing a gaseous fluid through the solution.
2. The method of recovering benzol plant residues, consisting in dissolving the same, distilling the solution until the desired vapor temperature is reached, and then blowing a gaseous fluid through the solution,
3. The method of recovering henzol. plant residues, consisting in dissolving the same, distilling the solution until the desired vapor temperature is reached, and then blowing a gaseous fluid through the solution, While maintaining the solution at the desired vapor temperature.
m J a n 1 A ihe ifieinlod oi ieccvering senzol plant residues, consistin in dissolving the residues in an organic liquid, distilling the same until the desired vapor temperature is reached, and then blowing a gaseous fluid through the solution,
5. The method of recovering benzol plant residues, consisting in dissolving the residues in solvent naphtha, distilling the same until the desired vapor temperature is reached,
and then blowing a gaseous fluid through the solution.
6. The method of recovering benzol plant residues, consisting in dissolving the residues, removing insoluble solid matter from the solution, then distilling the solution, and blowing a gaseous fluid through in testimony whereof, I have hereunto set my hand,
MARC DARREN. l' itnesses C. L on, M, GonWIN,
US13986216A 1916-12-30 1916-12-30 Method of recovering resins from benzol-plant residues. Expired - Lifetime US1236917A (en)

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US13986216A US1236917A (en) 1916-12-30 1916-12-30 Method of recovering resins from benzol-plant residues.

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